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Advanced modeling for predicting compressive strength in fly ash-modified recycled aggregate concrete: XGboost, MEP, MARS, and ANN approaches
Brwa Omer, Dilshad Kakasor Ismael Jaf, Aso A. Abdalla, Ahmed Salih Mohammed, Payam Ismael Abdulrahman, Rawaz Kurda (2024). Advanced modeling for predicting compressive strength in fly ash-modified recycled aggregate concrete: XGboost, MEP, MARS, and ANN approaches. , 9(3), DOI: https://doi.org/10.1007/s41062-024-01365-0.
Article117 days agoHybrid nonlinear regression model versus MARS, MEP, and ANN to evaluate the effect of the size and content of waste tire rubber on the compressive strength of concrete
Dilshad Kakasor Ismael Jaf, Aso A. Abdalla, Ahmed Salih Mohammed, Payam Ismael Abdulrahman, Rawaz Kurda, Azad A. Mohammed (2024). Hybrid nonlinear regression model versus MARS, MEP, and ANN to evaluate the effect of the size and content of waste tire rubber on the compressive strength of concrete. , 10(4), DOI: https://doi.org/10.1016/j.heliyon.2024.e25997.
Article117 days agoPredictive modeling of compressive strength in silica fume‐modified self‐compacted concrete: A soft computing approach
Payam Ismael Abdulrahman, Dilshad Kakasor Ismael Jaf, Sirwan Khuthur Malla, Ahmed Salih Mohammed, Rawaz Kurda, Panagiotis G. Asteris, Parveen Sihag (2024). Predictive modeling of compressive strength in silica fume‐modified self‐compacted concrete: A soft computing approach. , DOI: https://doi.org/10.1002/suco.202400931.
Article117 days agoMultiscale modeling for accurate forecasting of concrete wear depth: a comprehensive study on mixture proportions and environmental factors
Wael Mahmood, Payam Ismael Abdulrahman, Dilshad Kakasor, Ahmed Salih Mohammed, Rawaz Kurda, Panagiotis G. Asteris, Parveen Sihag (2024). Multiscale modeling for accurate forecasting of concrete wear depth: a comprehensive study on mixture proportions and environmental factors. , 7(6), DOI: https://doi.org/10.1007/s41939-024-00564-7.
Article117 days agoExploring the potential of soft computing for predicting compressive strength and slump flow diameter in fly ash-modified self-compacting concrete
Brwa Omer, Dilshad Kakasor Ismael Jaf, Sirwan Khuthur Malla, Payam Ismael Abdulrahman, Ahmed Salih Mohammed, Rawaz Kurda, Aso A. Abdalla (2024). Exploring the potential of soft computing for predicting compressive strength and slump flow diameter in fly ash-modified self-compacting concrete. , 24(2), DOI: https://doi.org/10.1007/s43452-024-00910-z.
Article117 days ago